HVAC systems with evaporator bypass and supply air recirculation and methods of using same

What is claimed is: 1. A heating, ventilation, and air conditioning (HVAC) system comprising: an evaporator coil disposed between a return air duct and a supply air duct; a compressor fluidically connected to the evaporator coil; a blower disposed between the evaporator and the supply air duct for providing a flow of air through the HVAC system; a supply air recirculation line fluidically connecting the supply air duct to the return air duct, the supply air recirculation line comprising a recirculation damper for adjusting a first flow of air to a conditioned space via the supply air duct and a second flow of air from the supply air duct to the return air duct via the supply air recirculation line; an evaporator bypass line fluidically connecting the return air duct to an output airstream of the evaporator coil, the evaporator bypass line comprising a bypass damper for adjusting a third flow of air to an input of the evaporator coil and a fourth flow of air to the output airstream of the evaporator coil via the evaporator bypass line; and a controller operatively coupled to the compressor, the blower, the recirculation damper, and the bypass damper, the controller operable to: determine a recirculation portion of the first flow of air to divert from the supply air duct to the return air duct based at least in part on a minimum operating flow rate of the blower; cause the recirculation damper to move to divert the recirculation portion of the first flow of air from the supply air duct to the return air duct via the supply air recirculation line; determine an operating mode of the HVAC system; determine a bypass portion of the third flow of air to divert from the return air duct to the output airstream of the evaporator coil based at least in part on the operating mode of the HVAC system; cause the bypass damper to move to divert the bypass portion of the third flow of air from the return air duct to the output airstream of the evaporator coil via the evaporator bypass line; determine a predetermined threshold ratio value for the operating mode; determine whether a ratio of the minimum operating flow rate of the blower to a speed of the compressor is greater than the predetermined threshold ratio value for the operating mode; and responsive to a determination that the ratio is greater than the predetermined threshold ratio value, determine the bypass portion of the third flow of air to divert from the return air duct to the output airstream of the evaporator coil based on the speed of the compressor and the predetermined threshold ratio value for the operating mode. 2. The HVAC system of claim 1 , wherein the operating mode of the HVAC system is a cooling mode and the predetermined threshold ratio value is a cooling threshold value. 3. The HVAC system of claim 1 , wherein the operating mode of the HVAC system is a dehumidification mode and the predetermined threshold ratio value is a dehumidification threshold value. 4. The HVAC system of claim 2 , the controller further configured to: determine whether the minimum operating flow rate of the blower is greater than a predetermined supply air flow rate of the HVAC system; and responsive to a determination that the minimum operating flow rate of the blower is greater than the predetermined supply air flow rate of the HVAC system, determine the recirculation portion of the first flow of air to divert from the supply air duct to the return air duct based on a difference between the minimum operating flow rate of the blower and the predetermined supply air flow rate of the HVAC system. 5. The HVAC system of claim 3 , the controller further configured to: determine whether the minimum operating flow rate of the blower is greater than a predetermined supply air flow rate of the HVAC system; and responsive to a determination that the minimum operating flow rate of the blower is greater than the predetermined supply air flow rate of the HVAC system, determine the recirculation portion of the first flow of air to divert from the supply air duct to the return air duct based on a difference between the minimum operating flow rate of the blower and the predetermined supply air flow rate of the HVAC system. 6. The HVAC system of claim 1 , wherein an S/T Ratio of the HVAC system is equal to or less than 0.75. 7. The HVAC system of claim 1 , the system further comprising a condenser fluidically connected to the compressor for condensing a refrigerant; and an expansion valve fluidically connected to the condenser and the evaporator coil for increasing a volume of the refrigerant. 8. A method of operating an HVAC system, the method comprising: determining, by a controller of the HVAC system, a recirculation portion of a first flow of air to divert from a supply air duct of the HVAC system to a return air duct via a supply air recirculation line based at least in part on a minimum operating flow rate of a blower of the HVAC system, wherein the supply air recirculation line fluidically connects the supply air duct to the return air duct; causing, by the controller, a recirculation damper disposed in the supply air recirculation line to move to divert the recirculation portion of the first flow of air from the supply air duct to the return air duct via the supply air recirculation line; determining, by the controller, an operating mode of the HVAC system; determining, by the controller, a bypass portion of a second flow of air to divert from the return air duct to an output airstream of an evaporator coil of the HVAC system via an evaporator bypass line based at least in part on the operating mode of the HVAC system, wherein the evaporator bypass line fluidically connects the return air duct to the output airstream of the evaporator coil; causing, by the controller, a bypass damper disposed in the evaporator bypass line to move to divert the bypass portion of the third flow of air from the return air duct to the output airstream of the evaporator coil via the evaporator bypass line; determining, by the controller, a predetermined threshold ratio value for the operating mode; determining, by the controller, whether a ratio of the minimum operating flow rate of the blower to a speed of a compressor of the HVAC system is greater than the predetermined threshold ratio value for the operating mode; and responsive to determining that the ratio is greater than the predetermined threshold ratio value, determining, by the controller, the bypass portion of the second flow of air to divert from the return air duct to the output airstream of the evaporator coil based on the speed of the compressor and the predetermined threshold value for the operating mode. 9. The method of claim 8 , wherein the operating mode of the HVAC system is a cooling mode and the predetermined threshold ratio value is a cooling threshold value. 10. The method of claim 8 , wherein the operating mode of the HVAC system is a dehumidification mode and the predetermined threshold ratio value is a dehumidification threshold value. 11. The method of claim 9 , further comprising: determining, by the controller, whether the minimum operating flow rate of the blower is greater than a predetermined supply air flow rate of the HVAC system; and responsive to determining the minimum flow rate the blower is greater than the predetermined supply air flow rate of the HVAC system, determining the recirculation portion of the first flow of air to divert from the supply air duct to the return air duct based on a difference between the minimum operating flow rate of the blower and the predetermined supply air flow rate of the HVAC system. 12. The method of claim 9 , further comp